Dr. Mamun Molla

Full Time Faculty
Associate Professor

Postdoctoral Research Associate, Dept. of Mechanical & Manufacturing Engineering
University of Manitoba, Canada
PhD in Mechanical Engineering, thesis in Computational Fluid Dynamics (CFD) University of Glasgow, UK
MPhil in Applied Mathematics, Bangladesh University of Engineering & Technology (BUET)

Phone: +880-2-55668200 Ext: 1519
Email: mamun.molla@northsouth.edu
Office:SAC1035

Curriculum Vitae (Click Here)

Md. Mamun Molla received his BSc (Honours) in Mathematics and MSc in Applied Mathematics from the Department of Mathematics, University of Dhaka, Bangladesh. He did MPhil in Mathematics, from the Department of Mathematics, Bangladesh University of Engineering & Technology (BUET).  After completing his MSc he joined in BUET as a visiting Lecturer in Mathematics.

In 2003, he joined in Stamford University Bangladesh as a Lecturer and in 2004 again he  joined in BUET as a full time lecturer. In 2005, he was awarded the Overseas Research Scholarship (ORS) for doing his PhD in Computational Fluid Dynamics (CFD) in the Department of Mechanical Engineering, University of Glasgow, UK. He successfully finished his PhD in July 2009.

After completing his PhD, he performed as a Postdoctoral Research Associate in the field of CFD using high performance parallel computing, in the Department of Mechanical and Manufacturing Engineering, University of Manitoba, Canada from October 2009 to August 2011.

Now Dr. Molla is an Associate Professor and group leader of the Computational Fluid Dynamics(CFD) group in the Department of Mathematics & Physics, North South University, Bangladesh.

His current research interests are: Boundary-layer flow, turbulent flow using Direct Numerical Simulation (DNS), Large-Eddy Simulation (LES), hybrid RANS/LES technique, Natural and Mixed convection flow, Lattice Boltzmann Method (LBM), Computational blood-flow as well as high performance parallel computing  (using MPI and OpenMP) for the fluid dynamics. Recently, he has  developed LBM code for  GPU computing using CUDA C and OpenACC.  He has over 50 peer-reviewed international journal publications and over 20 international conference papers. He attended different international conference and seminars in home and abroad.

Peer-reviewed Journal Articles

78.
M. F. Hasan, T. A. Himika, M. M. Molla (2017): Lattice Boltzmann Simulation of Airflow and Heat Transfer in a Model Ward of Hospital,  J. Thermal Science and Engineering Applications, Vol.9, 011011-1, 2017 (ASME), doi: 10.1115/1.4034817
 
77.
M. M. Molla, S. G. Moulic, L-S Yao, (2016): “Prediction of Heat Transfer to Fully-Developed Pipe Flows with Modified Power-law Viscosity Model Fluid”, Journal of Mechanics, Vol. 1(1), pp.1-47. (Science Research Association). http://www.scirea.org/journal/Mechanics

   76. T. A. Himika, M. F. Hasan, M. M. Molla (2016): Lattice Boltzmann simulation of airflow and mixed convection in a general word of hospital, J. Engineering Computation, Vol. 2016, Article ID 5405939, 15 pages

http://dx.doi.org/10.1155/2016/5405939 (Hindawi)

     75.  F. Habiba, M. M. Molla, M. A. H. Khan (2016) Natural convection flow of Nanofluid along a vertical wavy surface,  AIP Conf. Proc. 1754, 050018 (2016); http://dx.doi.org/10.1063/1.4958409 (AIP)

 74.  M. N. A. Siddiki, M. M. Molla, S. C. Saha (2016): “Natural convection flow in porous enclosure with localized heating from below with heat flux, AIP Conf. Proc. 1754, 050016 (2016); http://dx.doi.org/10.1063/1.4958407 (AIP)

     73.   S. Thohura, M. M. Molla, M. M. A. Sarker(2016): “Natural convection of non-Newtonian fluid along a vertical thin cylinder using modified power-law model, AIP Conf. Proc. 1754, 040021 (2016);
http://dx.doi.org/10.1063/1.4958381 (AIP)

   72.  F. Hassan, T. Himika, M. M. Molla (2016): “Large-eddy-simulation of air flow and heat transfer in   general ward of hospital using lattice Boltzmann method, AIP Conf. Proc. 1754, 050022 (2016);  http://dx.doi.org/10.1063/1.4958413 (AIP).
    
 
    71.  S. P. Shupti, M. G. Rabby, M. M. Molla, (2015): Rheological Behavior of  Physiological Pulsatile flow    through a Model of Arterial  Stenosis with Moving Wall,  Journal of Fluids, Vol. 2015, ID 546716, 22 pages.     http://dx.doi.org/10.1155/2015/546716

   70. M. G. Rabby, S. P. Shupti, M. M. Molla, (2014): “Laminar Blood Flow through a
       Model of Arterial Stenosis with Oscillating Wall”, International Journal of Fluid
       Mechanics Research,
Vol. 41(5),pp. 417-429 . DOI: 10.1615/InterJFluidMechRes.v41.i5

   69. S. Bhowmik, M. M. Molla, M. M. Mia, S. C. Saha (2014): Non-Newtonian mixed
        convection flow from an isothermal circular cylinder with Uniform Heat Flux,
        Procedia Engineering , Vol. 90, pp.510-416. doi:10.1016/j.proeng.2014.11.765

   68. S. Bhowmik, M. M. Molla, L. S. Yao (2014): Non-Newtonian mixed convection flow
         from an isothermal circular cylinder, Numerical Heat Transfer:  Part A, Vol. 66(5),
         pp. 509-529.

   67. M. G. Rabby, S. P. Shupti, M. M. Molla, (2014): “Pulsatile Laminar Non-Newtonian
          Blood Flows through Double Stenoses”, Journal of Fluids, Vol. 2014, 757902, pp.
          1-13 .  https://www.hindawi.com/journals/fluids/2014/757902/

    66. M. M. Molla, A. Biswas, A. A. Mamun, M. A. Hossain, (2014): Natural  Convection
          Flow Along an Isothermal Vertical Flat Plate with Temperature Dependent Viscosity
          and Heat Generation,  Journal of Computational Engineering, Vol. 2014, 712147,
          pp. 1-13. http://dx.doi.org/10.1155/2014/712147

    65. M. M. Molla (2014): “Letter to the Editor” Open ournal of Modelling & Simulation,
           Vol. 2, pp.1-2,   http://dx.doi.org/10.4236/ojmsi.2014.21001

      64. S. P. Shupti, R. Sultana, M. G. Rabby, M. M. Molla, (2013): “Pulsatile Laminar
        Flows in a Dilated Channel using Cartesian curvilinear coordinates.”, Universal   
        Journal of Mechanical Engineering
, Vol. 1(3), pp.97-107. DOI: 10.13189/ujme.2013.010304

     63. L-S Yao, M. M. Molla, S. G. Moulic (2013): “Fully-Developed Circular-Pipe Flow of a
        Non-Newtonian Pseudoplastic Fluid”, Universal Journal of Mechanical Engineering,
        Vol. 1(2), pp.26-31. DOI: 10.13189/ujme.2013.010201

     62. S. Bhowmick, M. M. Molla, M. A. Hossain (2013): “Non-Newtonian natural
         convection flow along a horizontal circular cylinder with uniform surface heat flux”,
         Advances in Mechanical Engineering
, Vol.2013, pp.1-8.

     61. S. Bhowmick, M. M. Molla, S. C Saha (2013): “Non-Newtonian natural convection
          flow along an isothermal horizontal circular cylinder using modified power-law
          model”, American. J. Fluid Mechanics, Vol. 2(3), pp. 20-30.DOI: 10.5923/j.ajfd.20130302.02

     60. F. Z. Sadekin, T. S. Turja, M. M. Molla (2013): “Buoyancy driven natural
          convection flow in an enclosure with two discrete heating from below” Procedia
          Engineering
, Vol. 56,  pp. 104-111. doi:10.1016/j.proeng.2013.03.095

     59. M. G. Rabby, A. Razzak, M. M. Molla (2013): “Pulsatile non-Newtonian blood flow
          through a model of arterial Stenosis” Procedia Engineering, Vol. 56, pp.225-231. doi:10.1016/j.proeng.2013.03.111

     58. M. M. Molla, B-C Wang, D. C. S Kuhn (2012): “Numerical study of pulsatile flows
          undergoing transition triggered by a modeled stenosis” Physics of Fluids, Vol. 24,
          121901 (2012). http://dx.doi.org/10.1063/1.4771604

     57. M. M. Molla, A. Hossain, B-C Wang, D. C. S Kuhn (2012): “Large eddy simulation

         of pulsatile non-Newtonian flow based on dynamics nonlinear subgrid stress
         model” Progress in Computational Fluid Dynamics, An Int. Journal,  Vol.12(4),
         pp.231-242. DOI: 10.1504/PCFD.2012.048253

     56. S. C. Saha, Y. T. Gu, M. M. Molla, S. Siddiqa, M. A. Hossain (2012): “Natural
         convection from a vertical plate embedded in a stratified medium with uniform heat
         source” Desalination and Water Treatment, Vol.44, pp. 7-14.

     55. M. M. Molla, M. C. Paul, (2012): “LES of non-Newtonian physiological blood
           flow in a model of arterial stenosis” Medical Engineering & Physics, Vol.
           34 pp. 1079-1087. http://dx.doi.org/10.1016/j.medengphy.2011.11.013

     54. M. M. Molla, S. C. Saha, M. A. I. Khan (2012): “MHD natural convection flow
           from an isothermal circular cylinder under consideration of temperature
           dependent viscosity” Engineering Computations: Int. J. computer-Aided
           Engineering & Software
, Vol. 29(8), pp.875-887.

http://dx.doi.org/10.1108/02644401211271636

     53. M. C. Paul, M. M. Molla, (2012): “Investigation of physiological pulsatile flow in
           a model arterial stenosis using large-eddy and direct numerical simulation”
           Applied Mathematical Modeling, Vol.36(9), pp.4393-4413.

     52. M. M. Molla, S. C. Saha, M. A. I. Khan (2012): “Natural convection flow in a 
           porous enclouser with localized heating from below” JP J. Heat Mass Transfer,
           Vol. 6, pp.1-16.  http://www.pphmj.com/abstract/6302.htm

     51. M. M. Molla, S. C. Saha, M. A. Hossain (2012): “The effect of temperature
          dependent viscosity on MHD natural convection flow from an isothermal sphere”
          J. Appl. Fluid Mech.  Vol.5 No.2(10) , pp.25-31.

     50. M. M Molla, S. C. Saha, M.A. Hossain (2011): “Radiation effect on free
           convection laminar flow along a vertical flat plate with streamwise sinusoidal
           surface temperature” Mathematical and Computer Modelling, Vol. 53(5-6)
           1310-1319. http://dx.doi.org/10.1016/j.mcm.2010.12.017

     49. M. M. Molla, S. C. Saha, M. A. I. Khan, M. A. Hossain (2011): “Radiation effect
            on free convection laminar flow from a horizontal circular cylinder” Desalination
            and Water Treatment,
Vol. 30, 89-97.

     48. M. M. Molla, M. A. Hossain, S. Siddiqa (2011): “Radiation effect on free
            convection laminar flow from an isothermal sphere” Chemical Engineering
            Communication
, Vol. 198(12), 1483-1496.

     47. A. Rahman, M. M. Molla, M. M. A. Sharker (2011): “Natural convection flow
            along a vertical wavy cone in case of uniform surface heat flux where viscosity
            is an exponential function of temperature” Int. Commun. Heat Mass Transfer
           
Vol. 38 , 774-780. http://dx.doi.org/10.1016/j.icheatmasstransfer.2011.03.021

     46. A. Rahman, M. M. Molla, M. M. A. Sharker, S Thohura (2011): “Effects of
            temperature dependent viscosity on natural convection flow along a vertical
            wavy cone with heat flux” Int. J. Energy & Technology, Vol.3 (8), 1-10

     45. S. C. Saha, Feng Xu, M. M. Molla, (2011): “Scaling analysis of the unsteady
            natural convection boundary layer adjacent to an inclined plate for Pr >1
            following instantaneous heating” ASME J. Heat Transfer, Vol. 133, 112501-1. doi:10.1115/1.4004336

     44. M. M. Molla, M. C. Paul, G. Roditi (2010): “Large Eddy Simulation for the
           additive and non-additive pulsatile flow in a model arterial stenosis” Computer
           Methods in Biomechanics and Biomedical Engineering
, Vol. 13(1) pp 105-120.

     43. M. M. Molla, M. C. Paul, G. Roditi, (2009):Large Eddy Simulation of
           pulsatile blood flow” Medical Engineering & Physics, Vol.31 153-159.

     42. M. M. Molla, M. A. Hossain, R. S. R. Gorla (2009): “Natural convection laminar
           flow with temperature dependent viscosity and thermal conductivity along a
           vertical wavy surface”, Int. J. Fluid Mechanics Res. Vol. 36 (3), pp. 272-288.
DOI:10.1615/InterJFluidMechRes.v36.i3.60

     41. M. M. Molla, L. S. Yao (2009): “Non-Newtonian natural convection flow along
           a vertical flat plate with a uniform heat flux”, AIAA J. Thermophysics & Heat  
           Transfer,
Vol. 24(1), pp.176-185. http://dx.doi.org/10.2514/1.37566

     40. M. M. Molla, L. S. Yao (2009): “The flow of non-Newtonian fluids on a flat plate
           with a uniform heat flux”, ASME J. Heat Transfer Vol. 131, pp. 011702-1-6.
doi:10.1115/1.2977610

     39. M. M. Molla, L. S. Yao (2009): “Mixed convection of non-Newtonian fluids
           along a heated vertical flat plate”, Int. J. Heat and Mass Transfer, Vol. 52, pp.
           3266-3271. http://dx.doi.org/10.1016/j.ijheatmasstransfer.2009.01.025

     38. M. M. Molla, S. C. Paul, M. A. Hossain, (2009): “Natural convection flow
           from a horizontal circular cylinder with uniform heat flux in presence of heat
           generation” Applied Mathematical Modelling, Vol. 33, pp. 3226-3236 .

     37. M. M. Molla, L. S. Yao (2009): “Non-Newtonian natural convection along a
           vertical heated wavy surface using modified power-law viscosity model”,
           ASME J. Heat Transfer, Vol. 131, pp. 012501-1-6. doi:10.1115/1.2977556

     36. L. S. Yao, M. M. Molla (2008): “Forced convection of non-Newtonian fluids on
           a heated flat plate”, Int. J. Heat and Mass Transfer, Vol. 51, pp. 5154-5159.

     35. L. S. Yao, M. M. Molla (2008): “Flow of non-Newtonian fluids on a flat plate:
           I. Boundary-layer”, AIAA J. Thermophysics & Heat Transfer, Vol. 22(4),
           pp. 758-761 .

     34. M. M. Molla, L. S. Yao (2008): “Flow of non-Newtonian fluids on a flat plate:
           II. Heat transfer”, AIAA J. Thermophysics & Heat Transfer, Vol. 22(4),
           pp. 762-765 .

     33. A. A. Mamun, Z. R. Chowdhury, M. A. Azim, M. M. Molla (2008):
           “MHD-conjugate heat transfer analysis for a vertical flat plate in presence
           of viscous dissipation and heat generation”, Int. Commun. Heat Mass Transfer,
           Vol. 35, pp. 1275-1280 .

     32. M. M. Molla, M. A. Hossain, R. S. R. Gorla (2008): “The effect of radiation
           on natural convection flow over a vertical frustum of wavy cone”, Proc.
           IMechE, Part C: J. Mechanical Engineering Science
Vol. 223,pp. 1605-1614

     31. M. M. Molla, M. C. Paul, Roditi, Giles, (2008). "Physiological Pulsatile flow in
           a model arterial stenosis ", Journal of Biomechanics, vol. 41, pp. S243

     30. M. M. Molla, M. A. Hossain, L. S. Yao (2007): “Natural convection flow
           along a vertical complex wavy surface with uniform heat flux”, ASME J.
           Heat Transfer
, Vol. 129, pp. 1403-1407.

     29. A. Hey, M. M. Molla, M. A. H. Khan (2007): “Chemical reaction on natural
           convection flow across an isothermal circular cylinder” Non-linear Analysis;
           Modeling and Control
, Vol. 12(2), pp. 191-202, ISSN: 1392-5113.

     28. M. M. Molla, M. A. Hossain (2007): “Radiation effect on mixed convection
           flow along a vertical wavy surface” Int. J. Thermal Science, Vol. 46(9),
           pp. 926-935.

     27. M. M. Molla, M. A. Hossain (2006): “Effects of chemical reaction, heat and
           mass diffusion in natural convection flow from an isothermal sphere with
           temperature dependent viscosity” Engineering Computations: Int. J.
           computer-Aided Engineering & Software,
Vol. 23(7), pp. 840-867.

     26. M. M. Molla, M. C. Paul M. A. Hossain, (2006): “Natural convection flow
           from an isothermal horizontal circular cylinder in presence of heat
           generation” Int. J. Engineering Science, Vol. 44, pp. 949-958.

     25. M. M. Molla, M. A. Taher, M. M. K. Chowdhury, M.A. Hossain (2006):
           “Magnetohydrodynamics natural convection flow from a sphere with
           heat generation” Non-linear Analysis; Modeling and Control, Vol. 10(4),
           pp 349-363, ISSN:1392-5113 .

     24. M. M. Molla, M. A. Taher, M.A. Hossain (2006): “Magneto-hydrodynamics
           natural convection flow on a sphere with uniform heat flux in presence of
           heat generation” Acta Mechanica, Vol.186, pp. 76-86.

     23. M. M. Molla, M. A. Hossain, R. S. R. Gorla (2005): “Natural convection
           flow from an isothermal horizontal circular cylinder with temperature
           dependent viscosity” Heat and Mass Transfer Vol. 41 pp. 494-498.

     22. M. M. Molla, A. Rahman, L. T. Rahman (2005): “Natural convection flow
           from an isothermal sphere with temperature dependent thermal conductivity”
            J.  Naval Architecture and Marine Engineering, Vol. 2(2) pp. 53-64.

     21. M. M. Molla, M. A. Hossain, R. S. R. Gorla (2004): “Conjugate effect
           heat and mass transfer in natural convection flow from an isothermal
           sphere with chemical reaction”, Int. J. Fluid Mechanics Res. Vol. 31(4),
           pp. 319-331.

     20. M. M. Molla, M. A. Hossain, L. S. Yao (2004): “Natural convection flow
           along a vertical wavy surface with uniform surface temperature in
           presence of heat generation/absorption” Int. J. Thermal Science,
           Vol. 43 pp. 157-163 (2004).

Int. Conference Proceedings papers:

     19. A. Khair, A. Hossain, B.-C. Wang, D. Kuhn and M. M. Molla, Direct
           numerical simulation of physiological pulsatile flow through a stenotic
           channel, in 7th International Symposium on Turbulence, Heat and
           Mass Transfer (THMT'12)
, Palermo, Sicily, Italy, 6 pages, 2012.

     18. A. Hossain, B.-C. Wang and M. M. Molla, Large-eddy simulation of a
           pulsatile flow in a channel with both-sided constrictions, in Proc. 20th
           Annual Conference of the CFD Society of Canada (CFD2012)
,
           Canmore, Alberta, Canada, 8 pages, 2012.

     17. M. M. Molla, B. C. Wang, D. C. S Khun, “Large eddy simulation of 
           physiological pulsatile flow” base on dynamic nonlinear subgrid
           scale stress model
”, ASME 2011 9th International Conference on
           Nanochannels, Microchannels and minichannels-ICNMM2011,
           June 19-22, 2011, Edmonton, Canada.

     16. M. M. Molla, A. Hossain, B. C. Wang, D. C. S Khun, “Large-eddy
           simulation of pulsatile non-Newtonian flow based on dynamic non-linear
           subgrid-scale stress model
”, International Conference on Computational
           Heat and Mass Transfer, July 18-22, 2011, Istanbul, Turkey.

     15. M. M. Molla,. B. C. Wang, S. C. Saha, “Large-eddy simulation of       
           Physiological pulsatile non-Newtonian flow in channel with double constriction
”,
           Proceedings of the 13th Asian Congress of Fluid Mechanics, 17-21 December,
           Dhaka, Bangladesh.

     14. M. M. Molla, M. C. Paul, “LES of non-Newtonian physiological blood flow
           1st International Conference on Mathematical and Computational
           Biomedical Engineering-CMBE2009, June 29-July 1, 2009, Swansea, UK

     13. M. M. Molla, M. C. Paul, G. Rodit, “LES of Physiological flow in a
           model stenosis
”, 7th EUROMECH Fluid Mechanics Conference,
           Manchester University, UK, 14-18 September, 2008.

     12. M. M. Molla, M. C. Paul, G. Rodit, “Physiological flow in a model of
           arterial stenosis
”, 16th Congress European Society of Biomechanics,
           Lucerne, Switzerland, 6-9 July 2008.

     11. Rahman, M. M. A Sarker, N. E. Mustafa, M. M. Molla, “Natural
           convective along a vertical wavy cone in case of uniform heat flux
           with temperature dependent viscosity”, 4th BSME-ASME International
           Conference on Thermal Engineering
, Dhaka, Bangladesh, 27-29
           December 2008.

     10. M. M. Molla, M. C. Paul, “LES of physiological pulsatile flow in a
           model arterial stenosis
”, 4th BSME-ASME International Conference on Thermal
           Engineering, Dhaka, Bangladesh, 27-29 December 2008.

     9. M. M. Molla, M. C. Paul, “Large Eddy Simulation for the pulsatile flow in
           a model arterial stenosis
”, Faculty of Engineering Postgraduate Conference,
           University of Glasgow, UK, 30 April-01 May 2007

     8. M. M. Molla, M. M. A. Sarker, “Natural convection flow in a square cavity
           with temperature dependent heat generation
”, 3rd BSME-ASME International
           Conference on Thermal Engineering, 20-22 Dec., 2006, Dhaka, Bangladesh,
           Contributed papers: Heat Transfer II, paper BA 158.

     7. M. M. Molla, M. A Hossain: “Natural convection flow over a vertical
           permeable cone with uniform heat flux in presence of temperature
           dependent viscosity”
, 3rd International Conference on Applied
           Mathematics & Mathematical Physics, (2005).

     6. M. A. Taher, M. M. Molla,Natural convection boundary layer flow on a
           sphere in presence of heat generation
”, 5th ICME and 10th Annual Meeting,
           30 Sep-2 Oct., (2005), Dhaka, Bangladesh.

     5. A. A. Mamun, M. M. Molla , M. A. Maleque, “Effects of Conduction
           and Convection on Magneto hydrodynamic Flow from a Vertical Flat Plate”,

           5th ICME and 10th Annual Meeting, 30 Sep-2 Oct., (2005), Dhaka, Bangladesh. 

     4. A. A. Mamun, M. M. Molla, M. A. Maleque, “Effects of Conduction and
           Convection on Magneto hydrodynamic Flow with Viscous Dissipation
           from a Vertical Flat Plate”
, Int. Conf. on Mechanical Engineering 2005
           (ICME2005),   December 2005, Dhaka, Bangladesh.

      3. M. A. Hye, M. M. Molla, A. H. Khan, “Conjugate effects of heat and mass
           transfer on natural convection flow across an isothermal circular cylinder
           with chemical reaction”, 4th ICME and 9th Annual Meeting,  29-31
           Dec (2004), Dhaka, Bangladesh.

     2. M. A. Taher, M. M. Molla, M. M. K. Chowdhury, “Magnetohydrodynamic
           natural convection flow on a sphere”, 4th ICME and 9th Annual Meeting,
           29-31 Dec (2004), Dhaka, Bangladesh.

    
     1 . M. M. Molla, M. A. Hossain, M. M. K. Chowdhury, “Natural convection
           flow along a vertical wavy surface with temperature dependent viscosity
           and thermal conductivity
”, 2nd BSME-ASME International Conference on
           Thermal Engineering (2004) Dhaka, Bangladesh.

Awards & Grant Received

    • NSU research grant Tk- 3.4 lacs,  2016/2017.
    • NVIDIA Tesla k40 GPU card grant from NVIDIA Corporation, 2016
    • NSU research grant Tk- 3.75 lacs,  2012/2013.

    • European Union (Marie-Curie) scholarship  for attending to the 7th EUROMECH Fluid Mechanics Conference (EFMC7), Manchester University, UK, 14-18 September 2008. 

    • ORS (Overseas Research Scholarship), University of Glasgow, UK, 2005-2008.

    • Faculty of Engineering Scholarship, University of Glasgow, UK, 2005-2008.

    • A Gold Medal for the best presentation in the 3rd International Conference on Applied Mathematics & Mathematical Physics, Shahjalal University of Science & Technology, Bangladesh, 2005.

    • National Science and Technology Fellowship, Bangladesh, 2000-2003.

    • Best award for the reading book competition, World Literature Centre, Bangladesh, 1993. 
Conference & Workshops Attended

Conferences and Workshops Attended

  1. Invited speaker “ Recent Developments of the Computational Fluid Dynamics in Bangladesh” one day seminar on Recent developments of the Applied Mathematics Research in Bangladesh, 25 April 2014, Dhaka University of Engineering &Technology, Dhaka, Bangladesh.
  2. Presented a paper entitle, “Natural convection flow in a rectangular enclosure with two discrete heating from bellow” 5th BSME Conference, December 21-23, 2012, IUT, Gazipur, Bangladesh.
  3. Presented a paper entitle, “Large eddy simulation of pulsatile flow in a constricted pipe” 19th Bangladesh Mathematics Conference, December 18-21, 2011, IUT, Gazipur, Bangladesh.
  4. Attended on a workshop “ High Performance Computing” July12-15, 2010, University of Manitoba, Canada
  5. Presented a paper entitled, “Large eddy simulation of physiological Pulsatile flow based on dynamic nonlinear subgrid scale stress model”, ASME 2011 9th International Confernce on Nanochanel, Microchannels and Minichannels-ICNMM2011, June 19-22, 2011, Edmonton, Canada.
  6.  Presented a paper entitled, “LES of Physiological Pulsatile flow in a model stenosis”, 7th EUROMECH Fluid Mechanics Conference, University of Manchester, UK, 14-18 September 2008
  7. Presented a paper entitled, “Physiological flow in a model of arterial stenosis”, 16th Congress European Society of Biomechanics, Lucerne, Switzerland, 6-9 July 2008.
  8. Presented a paper entitled, “Large Eddy Simulation for the pulsatile flow in a model arterial stenosis”, Faculty of Engineering Postgraduate Conference, University of Glasgow, UK, 30 April-01 May 2007. 
  9. Presented a poster entitled, “Transitional blood flows modeling in an arterial stenosis using Large Eddy Simulation” British Applied Mathematics Colloquium (BAMC), Keele University, UK, 24-27 April 2006.
  10. Presented a paper entitled, “Pulsatile flow in a model arterial stenosis using Large Eddy Simulation” Colloquium of the Department of Mechanical Engineering, University of Glasgow, UK, June 2006.
  11. Presented a paper entitled “Natural convection flow over a vertical permeable cone with uniform heat flux in presence of temperature dependent viscosity” 3rd International Conference on Applied Mathematics & Mathematical Physics, Shahjalal University of Science & Technology, Bangladesh, January 06-09, 2005.
  12. Presented a paper entitled “Natural convection flow from an isothermal horizontal circular cylinder with temperature dependent viscosity”, 14th Mathematics Conference, University of Dhaka, Bangladesh, December 27-29, 2003.
  13. Presented a paper entitled “Natural convection flow along a vertical wavy surface with uniform surface temperature in presence of heat generation/absorption”, 2nd International Conference on Applied Mathematics & Mathematical Physics, Shahjalal University of Science & Technology, Bangladesh, September 11-15, 2000.
  14. Presented a paper entitled “Natural convection flow along a vertical wavy surface with temperature dependent viscosity and thermal conductivity”, 2nd BSME-ASME International Conference on Thermal Engineering, Bangladesh University of Engineering &Technology, Bangladesh.
  15. Workshop on the “Perturbation Theory” November 1999, University of Dhaka, Bangladesh.
  16. 12th Bangladesh Mathematics Conference, University of Chittagong, Bangladesh, November 17-19, 1999.
Invited Speaker: 1. Invited speaker “Application of the NumericalSimulation” one day seminar will be organized by Bangladesh MathematicalSociety (BMS) , 03 January 2015, Jahangirnagar University, Dhaka, Bangladesh.

2. Invited speaker “ Recent Developments of the ComputationalFluid Dynamics in Bangladesh” one day seminar on Recent developments of theApplied Mathematics Research in Bangladesh, 25 April 2014, Dhaka University ofEngineering &Technology, Dhaka, Bangladesh.

Educational Background


Sep 2009- to Aug 2011

Postdoctoral Research Associate
University of Manitoba
Dept. of Mechanical & Manufacturing Engineering
Winnipeg, R3T 3M2, Manitoba, Canada

June 2009

University of Glasgow

Department of Mechanical Engineering, Glasgow, UK
PhD in Mechanical Engineering, thesis in Computational Fluid (CFD)

Nov 2003 

Bangladesh University of Engineering & Technology, Bangladesh

MPhil in Applied Mathematics (Thesis in CFD)

Sep 2001 

University of Dhaka, Bangladesh

MSc in Applied Mathematics (Thesis in CFD)

First Class 2nd position

June 1999

University of Dhaka, Bangladesh

BSc (Hons.) in Mathematics

First Class 4th position

      • From Feb 2016- to till date, Associate Professor, School of Engineering & Physical Sciences, Dept. Mathematics & Physics, North South University, Dhaka, Bangladesh.
      • From Sep 2011- Jan 2016, Assistant Professor, School of Engineering & Physical Sciences, Dept. Mathematics & Physics, North South University, Dhaka, Bangladesh.

      • Oct 2005-May 2008 University of Glasgow, UK Tutor in Mathematics, Fluid Dynamics and Thermodynamics.

      • From Dec-04 to Sep-05, Bangladesh University of Engineering & Technology, Dhaka, Bangladesh Lecturer in Mathematics.

      • Nov 2003-Dec 2004 Stamford University Bangladesh, Dhaka, Bangladesh Lecturer in Mathematics.

      • April 2002-Nov 2003 Bangladesh University of Engineering & Technology, Dhaka, Bangladesh Lecturer in Mathematics.


  • Thesis: Computational Fluid Daynamics (CFD)
  • CSE 257: Numerical Methods (Programming in MATLAB, C and C++)
  • MAT130 : Claculus and Analytical geomerty II ( Integral Claculus)
  • MAT240 : Claculus and Analytical geomerty III ( Infinite Series and Vector Algebra)
  • MAT250 : Claculus and Analytical geomerty IV (Partial Derivatives, Multiple Integral, Vector Calculus)
  • MAT350 : Engineering Mathematics (ODE, Laplace and Fourier)
  • MAT116 : Pre-Calculus
    • Editorial board member of the “Open Journal of Modelling and Simulation"

    • Life member of the Bangladesh Mathematical Society (Member No: 749).
  • Graphics Process Unit(GPU) computing for Lattice Boltzmann Simulation
  • Computational Fluid Dynamics (CFD)
  • Laminar and turbulent flows
  • Newtonian and non-Newtonian flows using the Navier-Stokes Equations
  • Natural and Mixed Convection flows
  • Large-eddy simulation (LES) for Navier-Stokes Equations
  • SRT and MRT Lattice Boltzmann Method (LBM) for Newtonian and Non-Nwtonian fluids
Full Time Faculty
Associate Professor

Postdoctoral Research Associate, Dept. of Mechanical & Manufacturing Engineering
University of Manitoba, Canada
PhD in Mechanical Engineering, thesis in Computational Fluid Dynamics (CFD) University of Glasgow, UK
MPhil in Applied Mathematics, Bangladesh University of Engineering & Technology (BUET)

Phone: +880-2-55668200 Ext: 1519
Email: mamun.molla@northsouth.edu
Office:SAC1035

Curriculum Vitae (Click Here)